Milking machine



Nov. z4,1925. y 1,562,770

H. D. JAMIESCN MILKING MACHINE HQ @f77/@wav vNov. 24, 1925. n

H. D. JAMIESON MILKING MACHINE Filed May 25, 1923 3 Sheets-Shes?. 2

Nov. 24, 1925. 1,562,770

H. D. JAMiEiQN MILKING MACHINE Filed May 23, 1923 5 Sheets-Sheet 5 Patented Nov. 24, 1925.

HERERT `IDBJlTlVIlVJOITlD JAMIESON, 0F KEREPEHI, NEW ZEALAND.

MLKNG MACHINE.

Appncatinn area May 23, 1923.

To 'all whom t may Vconcern:

Be it known that l, -Hnimelrr DRUMMUND .Liiuinsong a subject of the King of Great Britain, residing at Ker'ep'ehi, in the Pro vincial District of Auckland, in the Dominion of New Zealand, have invented new and useful Improvements in Milking Machines, of which the following is a specification.

This invention relates to milking niachines and particularly to the ol-'ass of machine having a pulsat'or working in combination with a milk releas'er of the two chanii'iered type.

'.llie object of niy invention is to make a puisato'r and milk rel'eas'er which Will deliver both the Inill and 4the froth from the milk into the catch vessel and be capable of using the plant for any n-iiunber of cows or for testing one individual cow, giving in addition ready facilityT for assembling and disassembling the various parts for Washing out and cleaning.

The chief disad'i'fantage with the 'existing types of i'nill'ring machines is the fact that `they "allow a certain amount of froth from the mil-k to find its Way from the rel'e'aser into `the main 'vacuum pipe and main v-aciium pipe tank. The method of rel-easing and ln'dsating in my invention so as t'o prevent froth from the lnillt getting into the main vacuum pipe and tank accomplished by maintaining a constant vacuum in the upper Jcha'inber A'of the releaser by a tern-ate routes, the pulsator effecting direct connection of the air exhausting means With the top chamber of the releas'er and alternately 'by shutting olthe connection -for vacuum to the top `chamber of 'the releaser, and taking the vacuuin through the bottom chamber of the releaser so to bring down the froth With the milk from the top chamber to the lower cl'ian'ibefr and then expel the same to a suitable catch vessel as hereinbefore described.

The milk "releaser can otherwise be de signed much on the existing methods as adopted for two chamber-ed reieasers Where in a flap valve `delivers the milk from the Zupper chaniber to the lower chamber and 'another flap 'valve delivers the mill: from the lower chambel to the catch vessel, except 'that the Yconi-i'ecti ons to the two chambers lare altered Vso -as to provide for maintaining vacuum in the top 'chamber by alternate routes, and 'also 'that means are provided for swivelling the lower chamber of the reieaser Serial No. 640,969.

around to any angle relative to the upper chamber which is fastened to a bracket by any convenient means. Swivell'ing of the lower chamber vallows of the milk being delivered into a long conduit or it can be turned away from the conduit so as to deliver the mill; into a separate vessel when used for Checking individual cows.

The mechanism to effect the pulsating so to operate the milk releaser by the method revealed in my invention may be varied somewhat as regards port arrangements so long as the pulsator will give an alternate vacuum and atmospheric connection to the lower `chamber of the releaser, and constant vacuum to the upper chamber, this however, being by alternate routes las described.

In the accompanying drawings illustrating my invention and to which `l hereinafter refer,

Figures 1,2,8 and 4 show an arrangement of pulsator and milk releaser whereby the pulsating is effected by in'eans 'of a rotary disc and in which the speed of pulsating is the 'same in both teat cups and lower chamber of releaser.

Figure "5 illustrates a method of connecting 'the rotary ldisc and pulsating When the pulsations are required in the teat cups at a fast-'er rate than in the `lower chamber of 'the releaser.

Figures "6, 7 and 8 show analternative method vof effecting pulsating by means of slide valve instead of rotary discs.

Figures 9 and 10 show an improved netlrod yof making the iap valves for lthe releaser.

The pulsator (Figures l t'o 4l) comprises a stationary pla-te 'or disc lvfadapted to be secured to a Wall, post yor 'other support 2 and a disc `3 mounted on a feather @key l on the shaft -5 which projects lfrom the plate ror disc l. A pulley 6 fl'reyed on the shaft 5 enables the latter and the disc 3 to be driven, the spring 7 surrounding the shaft 5 between the pulley :and disc 3 'keeping the 4latter aga-inst `the plate or disc l. l

the face of 'the plate 1 .against which the disc works, is formed la 4circular groove 8 which is connected with an' exhausting means by a pipe 8A and is constantly under VZLCHD'L Also in the inner face of the plate Vor -ldisc l Vare radial recesses n9 and lOlthe '.former having a greater width than the latter, the greatest radius or' which is however equal to or the same as the greatest radius of the recess 9.

The reason the recess 9 is made wider than the recess 10 is to enable it to be opened to atmosphere by each of the air ports 11 (in turn) in the rotary disc 3, during the latters rotation, said ports 11 each missing the recess 10 to which it is not desired to admit air.

Also in the inner face of the plate 1 are opposite outer radial recesses 12 and 13, the former being wider than the latter, while the smallest radius of each is the same, the reason being so that while the air port llA in the disc 3 can admit air tov the recess 12, it will not admit air to the narrow recess 13, to which it is not desired air should be admitted.

In the inner or working face of the rotary disc 3 recesses 111, 15 and 16 are formed, the former being provided for the purpose oit connecting the circular vacuum groove 8 with the outer radial recesses 12 and 13, while the recesses 15 -and 16 each in turn xconnect the groove 8 with the inner radial Y recesses 9 and 10.

The releaser (Figures 1 and is of the two chamber type, and comprises a lower portion 17 tapering to an outlet controlled by a flap valve 18, and supported in a bracket 19 secured to a wall, post or the like 20. The upper portion 21 of the releaser also tapers to an outlet, the latter being controlled by a ap valve 22 above which is a flanged plate 23 which tits on and forms a top to the portion 17, a rubber ring 24C placed between said plate 23 and the portion 17 ensuring an air tight joint being made when the interior of the portion 17 is under vacuum. The outlet from the upper portion 21 and the valve 22 project into the lower portion 17.

A flanged top 25 is provided to the upper portion 21, with a slightly projecting bar 25A on top, said bar being slipped under a lug 26 attached to the top edge of the portion 21, the object being to keep the top 25 in position when the milk pipe is hanging on to same and vacuum has not been applied to the releasers. As the top chamber 21 is always under vacuum, a rubber ring 2t is inserted between the portion 21 and top 25, the latter being prevented from moving when vacuum is applied.

A nipple 27 with a circular rubber seat 27A is slipped through a hole in the top 25, vacuum inside the chamber 21 ensuring a perfect air tight joint.

This nipple 27 is connected with the milk spaces of teat cups and provides for the passage of milk from the teats to the upper chamber of the releaser.

A nipple 28 also in the top 25 is adapted to be connected with a pipe from the pulsator as will be hereinafter described, while a nipple 29 with a rubber seating similar to the nipple 27 in the plate 23 is adapted to be also connected with the pulsator, and in some cases is also provided with a branch 29A for connection with the annularl spaces of teat cups.

The connecting up and operation of the pulsator and the releaser when it is not required that the teat cups should pulsate faster than the releaser will now be described (see Figure 1).

From the recess l() a pipe 30 runs through the shed as far as required, and is connected through branches 30A with the nipple 28 of the upper chamber of each releaser used.

From the recess 9 a pipe 31 runs through the shed the necessary distance in order that branches 31A can be connected to the ni ples 29 opening into the lower chamber ot the releasers. Each branch nipple 29A is connected by a pipe 32 with the annular spaces of a set of teat cups, while each nipple 27 is connected by a pipe 33 with the milk spaces of a set of teat cups.

The recesses 12 and 13 in this case are not required and ports opening into same are plugged up, nor do the recess 14 and port 14A in the disc 3 take any part in the operation described. The circular groove 8 as before stated is under constant vacuum, and as the disc 3 turns against the plate 1, the recesses 15 and 16 which are always open to the ring 8, each once in every revolution of the disc connects rst the recess 9 with the ring 8 and then the recess 10 with the latter. The air ports 11 in the disc 3 are placed between the recesses 15 and 16 A the result of which is that following the eX- haustion of air from the lower chambers of the releaser and the annular spaces of the teat cups through the pipes 31, 31A and 32 air is admitted to the recess 9 to cause the pulsations necessary to bring about the collapse of the rubber linings of the teat cups around the teats, and also to break down the vacuum in the lower chambers of the releasers, whereupon milk flows from the latter.

Owing to there being two air ports 11 and two recesses 15 and 16 two pulsations are created during each revolution of the disc 3. It will also be observed that the positions of the recesses 9 and 10 are such that both cannot be under vacuum at the same time, and that while air is being admitted to the lower chambers of the releasers and to the annular spaces of the teat cups, air is being exhausted from the upper chambers of the releasers and from the inner or milk spaces of the teat cups, and also that when air is being exhausted from the lower chambers of the releasers and from the annular spaces of the t'eat cups the upper chambers of release'rs and milk spaces to teat cups are in direct communication through the Valve 22 (being open) along pipe 31 to constant vacuum, or in other Words the means of eX- haustion to the upper chamber are through alternate routes first through nipple 28 then through nipple 29.

then it is required that the pulsations should occur in the teat cups at a `laster rate than in the lower chamber of the releaser, the connections to the pulsator and releaser would be made as shown in Figure In this case, Ithe pipe 30 which leads to the upperchamber of the releaser is connected to the recess 13 while the port opening into the recess l0 is plugged up. The pipe 3l proyiding communication between the pul'sator and the lower chambers of the releasers in this case leads from the recess l2, while the connections 34A to the annular spaces of the teat cups are made from a third pipe 34 from the recess 9 and running the necessary distance through the shed. The pipe 33 to the milk spaces of the cups is from the nipple 27 as before.

The recesses l5 and 1G and ports ll in thedisc 3 act as be'lore and cause two pulsations to be created in the annular spaces 'of the teat cups, during each revolution ot" the disc 3, while the recess lei connects the recesses l2 and 13 alternatelyT with the circular vacuum groove 8 or once eachduring cach revolution of the disc 3, while the port let-3 opens the recess l2 to atmosphere once during each revolution 'of the disc 3 and during the time the recess 13 is under vacuum pe'r recess let.

It will therefore be seen in the case of pulsating the teat cups and 4releasing milk from the ielfeasers at the same rate, that by the arrangement of ports and recesses in the two discs and the connecting ports, pipes and nipples from the releasers and teat cups thereto that the upper chambers of releasers and the milk spaces of the teat cups are always under 'vac'iuum iirst by means of port l() Yand the pipes and nipples connected `thereto, and then when exhaustion is cut o'tf at port l() it is instantaneously applied to Ithe bottom chambers of releasers and the annular spaces of the teat cups, up through und past the open Valve 22 into the top chambers of releasers as well as to the milk spaces ot teat cups. Vacuum is therefore always maintained in the upper chambers of releasers and the milk spaces in teat cups. lfhile iitmospliere is iiieely admitted `(without i aint or regulation) alternately with the exaaustion of air from the bottom chambers of releasers and the annular spaces of the tea-t cups. pulsations to the latter and the releasing of milk from the bottom chambers of releasers occur alternately.

In the event "of it being necessary' to pulsate the teat cups at twice the rate ol releasing milk from the bottom chambers of releasers, air is exhausted alternate-ly from the upper chambers of releas'er-s and to the milk spaces of teat cups by means oirl the ports and recesses l2 and 13 conjunction with recess le and tliepip'es fand nipples connected thereto.

llVhilc air is being exhausted from the saiil'upper chambers of releasers land the milk spaces to the teat cups, tree atmosphere is being admitted to the lower chambers 'only' per ports l2 and pipe 3l in conjunctitm with the atmospheric port l@ on the rota :y disc, thus the release or' milk from the bnttom chambers oli the releasers in this case takes place once only for every complete revolution of the rotary disc. 'lhe annular vspaces of the teat cups are in this ease connected with exhaustion and the inlet 'oi' tree at`l Figures l, 7 and 3 illustrate a ni'ethod by which existing slide Valve plants, which are used tor pulsating could be utilized so to perii'orm the pulsating and the releasing tof milk from the two chambered releaser by the methods hereinbetore described, that the v`ehausiion of air Jfrom the upper chamber ot releaser and milk spaces ot the teat cups continuously, but through alternate routes.

VWhere entirely new plants are installed with my invention, tor pulsating milk through the two chambered type 'of releaser,

prefer the installation of the 4rotary disc iethod ot pulsation fas shown in Figures l, 3, l and 5, but where existing plants Ihave the pulsation effected by a slide valve it may be cheaper to utilize the existing slide valve pulsator and alter the slide valve, ports and connections thereto so `as to pertorm the leasing of milk by the method hereinbeiore described.

litany of the existing slide Valve pulsators are made a'tter the manner as shown on the accompanying drawing, and although thc particular arrangement of making 'the ports and valves may 'Vary somewhat, the pipe connections, ports 'and Valve to the pul'sator can usually be altered so to perform the releasing of milk and pulsating` ot teat Acups according to my invention by connections to the top and lower chambers respectively.

In Figure 6 the reference figures to the releaser and pipes and connections thereto are the same Vas those on Fi ires l, 2, 3, 4l

and 5. i In ythis case the body fof the pfulsaftor 4loo 37 is secured to a suitable supportf on which the slide valve 3S) operated by eccentric rod 40 reciprocates.

In the case of the slide valve fixture, I form a port 41 which is connected with air exhausting means by the pipe 41A and is constantly' under vacuum. Also in the face of the pulsator 1, I form a port 42 which is connected to the intermittent vacuum pipe 30 leading to the top chamber 21 of the releaser. I also form a. port 44 equal in width to port 42 and spaced equidistant on the opposite side of port 41 and which is con- 'nected by pipe 3l with nipple 1) to the lower chamber of the releaser.

ln the face of the D slide valve 3, I form a recess or port 45, the length of which as shown on drawing is equal to the width of port 41 and port 44 and the bar of metal 9A intervening between. Also in the D slide valve 3, I form port 46 connecting to atmosphere.

The arrangement as drawn in Figure (i pulsates the teat cups and releases milk at the same speed which is usually about 4() pulsations per minute, the same as shown in Figures 1, i2, 3 and 4.

Should it be required to release milk from the releaser at a slower speed than the pulsating` of the teat cups, I would lit in a separate valve to work the pulsation of the teat cups at the usual speed about 4() per minute. The operation of pulsating as shown in Figure (5 is as follows:

IVhen port 42 is opened to the constant vacuum pipe 41l by the D valve 39 moving to the right, vacuum is formed in the top chamber 21 of the releaser per medium of pipe 30 whilst at the same time atmosphere enters the bottom chamber 17 per medium of ports 46 and 44 and pipe 31, and also to pulsate the teat cups per pipe 32 as shown, and during this stroke of the valve milk is released from the bottom chamber through valve 18. On the return stroke of the valve 39 immediately the top chamber 21 is cut off to vacuum per medium of port 42 and pipe 30, atmosphere is shut ofi' the bottom chamber by the port 46 cutting olf port 44 as shown on drawing Figure 6, with the valve in mid position.

Therefore, immediately vacuum is shut off from the top chamber 2l by pipe 30 being closed, it is opened to vacuum per medium of ports 44 and 45 and pipe 31 and valve 22, that is to say vacuum .is maintained in the upper chamber 21 of the releaser by alternate routes as hereinbefore described by means of the rotary disc pulsator.

So long as valve 39 uncovers port 44 to vacuum, valve 1S in releaser is closed and the most important function of my invention is performed, namely, bringing down the froth from the milk which has accutsaar/'.0

mulated in chamber lthrough valve QQ into chamber 17, vacuum during this stroke of the valve being admitted to the pulsation pipe 3;). leading to the teat cups.

Mechanically other alternatives, such as double ported rabies, etc., as regards port arrangements in valve 2li) and pulsator 3T might be substituted to effect the object of my invention, namely, to positively bring down the froth from the milk from chamber .121 to chamber 17, and which is eifected by maintaining vacuum in chamber Q1 by alternate routes as shown.

I am therefore only claiming the slide valve form of pulsation having ports disposed therein so as to uiaintain constant `vacuum in the top chamber of the releaser by alternate routes, in combination with the releaser as hereinbefore described.

It is therefore obvious that by altering the ports in either rotary disc, plug cock or slide valve type of pulsator the ratios of speed of pulsation between the teat cups and releasers could be. varied.

The lower portion 17 of the releasers is turnable on its mounting for the purpose of enabling milk to be delivered either into an open gutter or milk conductor 3G or an open bucket, the object being so that a means of checking and weighing the milk from any cow with a view to testing the same can be done at any time, without the aid of any additional plant.

The upper chambers of releasers have means whereby all pipes and nipples necessary for the release of milk connect thereto, and the said chambers are held in their seat on the top of the bottom chambers by means of a bracket 19 attached to the wall 20, a holed or slotted projection 35 on the side of the said upper chambers fitting on a vertical pin 3G on said bracket. No movements of the upper chambers 2l can therefore take place to interfere with the pipes or nipples when the bottom chambers 17 are being turned round. The two nipples 27 and 29 are fitted with rubber ring joints in such a way that vacuum from within makes an air tight joint, and when necessary to dismantle releasers for cleaning purposes, these joints are easily disconnected.

By the designs and method adopted in such releasers the whole can be taken down and apart for the purpose of cleaning with the greatest of ease and in a very few seconds, and on account of the methods adopted in positively emptying the upper and lower chambers alternately, no accumulation of milk or froth can take place in the upper or lower chambers of releasers. Therefore comparatively small chambered releasers can be used.

Figure 9 illustrates my improved form of flap valve for use in the releaser. The

improvement in this case consists in vulcanizing the rubber face -lT on the inner face of the valve and a rubber face -18 on. the outer face of the valve, an intermediate disc -l-tl of punched metal plate or gauze being interposed to allow of the two faces being vulcanized together. The central plate of gauze 4:9 terminates in two lugs or projections through which is secured hinge pin 51. This type of valve usually has the seating against which it bears slightly inclined so that the valve closes on its seat by gravity.

This type of valve prevents corrosion of metal parts of the valvewhich come in con` tact with the milk, and is much more sanitary to clean than a metal faced valve.

In existing practice an air tight joint is secured between the metal faced valve and the metal faced seat by interposing a rubber ring which usually fits into a sunk groove either on the seat or on the face of the valve.

By the method hereinbefore described, a milking machine having the system of releasing eflected according to my invention positively prevents froth or milk from the releaser passing through the various pipe connections into the air exhausting means, whether pulsating be effected by rotary disc, slide valves or other method, and also allows the plant to be readily assembled and disassembled for cleaning the various parts.

I claim 1. In a milking machine, a milk releaser including upper and lower chambers, a connection to establish communication between the upper chamber and a pulsatorI whereby to produce an intermittent vacuum in said chamber, a milk pipe connection from the teat cups to said upper chamber, means to establish communication between the lower chamber' and an alternate vacuum and atmospheric connection of a pulsator and the annular spaces of the teat cups, so that air is exhausted from the upper chamber of the releaser and from the milk spaces of the teat cups continuously but by alternate routes whereby when vacuum is by the lower chamber, the froth as well as the milk itself is brought down into the lower chamber substantially as described and illustrated.

2. In a milking machine a releaser as claimed in claim 1, characterized in that while vacuum is on the top chamber through the intermittent vacuum connection, atmosphere is opened to the lower chamber and to the annular spaces of the teat cups so as to expel the milk and froth from the lower chamber and pulsate the teat cups substantially as described and illustrated.

3. In a milking machine, a releaser as claimed in claim 1 characterized by the provision of means for fastening the upper chamber of the releaser to a suitable bracket and means for swivelling the lower chamber to any position so as to deliver the milk to a conduit or to a separate vessel for checking purposes substantially as described and illustrated.

t. In a milking machine a pulsator of the rotary disc type wherein the ports, recesses and grooves in the stationary and rotary disc or plates are so arranged as to give an intermittent vacuum to the pipe connecting with the top chamber of a releaser having upper and lower chambers, and to give alternate vacuum and atmosphere to the connection fixed to the lower chamber of the releaser so as to maintain constant vacuum in the top chamber of the releaser but by alternate routes and to release milk at the same rate as the pulsations of the teat cups substantially as described.

5. A milking machine provided with air exhausting means connected with a double chambered milk releaser as claimed in claim l in combination with a pulsator of the slide valve type, the ports in the pulsator body and the slide valve being so arranged as to give intermittent vacuum at one end connecting with the top chamber of the releaser and to give alternate vacuum and atmosphere at the other end of the pulsator so as to connect with the lower chamber of the releaser to effect the working of the releaser by maintaining constant vacuum in the top chamber by -alternate routes and expelling the milk and froth from the lower chamber as hereinbefore specified and described.

6. A milking machine provided with air exhausting means connected with double chambered milk releaser and teat cups containing rubber inflations, and pulsator of a suitable type, and means coacting with the exhausting means, releaser and pulsator whereby to maintain constant vacuum in the upper chamber of the releaser and the milk spaces of the teat cups by alternate routes and to make and break vacuum in the lower chamber of releaser and pulsate the annular spaces of the teat cups substantially as described illustrated.

In testimony that I claim the foregoing as my own, I have hereto affixed my signature.

HERBERT DRUMMOND JAMIESON. 

